Intel Xeon Gold 6142M SR3B1 16-Core 2.6GHz 22MB L3 Cache 10.4GT/S UPI Speed FCLGA3647 14NM 150W

Core Count: 16

The Power of 16 Cores

The Intel Xeon Gold 6142M Processor is equipped with an impressive core count of 16, making it a powerhouse for demanding computing tasks. With each core capable of executing multiple instructions simultaneously, users can experience improved performance and multitasking capabilities. Whether you're running complex simulations, analyzing large datasets, or working on resource-intensive applications, the 16 cores of this processor provide the processing power needed to handle these tasks efficiently.

Enhanced Multithreading

In addition to the high core count, the Intel Xeon Gold 6142M Processor supports Intel Hyper-Threading Technology. This technology enables each physical core to handle two threads simultaneously, effectively doubling the number of virtual cores available. With a total of 32 threads, users can experience enhanced multitasking capabilities and improved responsiveness, allowing for smoother workflow and faster completion of tasks.

Optimized for Server Workloads

The 16-core configuration of the Intel Xeon Gold 6142M Processor makes it an ideal choice for server workloads. Servers often handle multiple concurrent tasks and serve numerous clients simultaneously. The high core count ensures that the processor can efficiently handle these workloads, providing reliable performance and minimizing potential bottlenecks. Whether you're running a database server, hosting virtual machines, or managing a cloud environment, the 16 cores of this processor deliver the processing power required for smooth operation.

Scalability for Growing Needs

As your business or workload grows, having a processor with a higher core count becomes increasingly important. The Intel Xeon Gold 6142M Processor's 16-core configuration offers scalability to accommodate future expansion and increased demands. With more cores available, you can easily allocate resources to different tasks or virtual machines without compromising performance. This scalability ensures that your system can handle the evolving needs of your business or computing requirements.

Improved Parallel Processing

Many modern applications are designed to take advantage of parallel processing capabilities. By utilizing multiple cores, these applications can divide tasks into smaller parts and execute them concurrently, significantly reducing processing time. Whether you're rendering complex 3D animations, encoding videos, or performing scientific simulations, the 16 cores of the Intel Xeon Gold 6142M Processor enable efficient parallel processing, resulting in faster completion of tasks and improved productivity.

Efficient Resource Utilization

With 16 cores at your disposal, you can allocate resources more efficiently to different tasks or applications. By distributing workloads across multiple cores, you can ensure that each task receives sufficient processing power without overloading individual cores. This efficient resource utilization translates into improved system performance and responsiveness, allowing you to accomplish more in less time.

Smooth Virtualization

Virtualization has become a critical component of modern computing environments. Whether you're running multiple virtual machines on a single server or creating virtualized desktop infrastructure, the 16 cores of the Intel Xeon Gold 6142M Processor provide the necessary horsepower for smooth virtualization. Each virtual machine can be assigned dedicated cores, ensuring that they have sufficient resources to operate efficiently without impacting the performance of other virtual machines or the host system.

Code Name: SR3B1

The Significance of Code Name SR3B1

The Intel Xeon Gold 6142M Processor is identified by its unique code name, SR3B1. Code names serve as a way for manufacturers and consumers to identify specific processor models and their respective features. Understanding the significance of the code name SR3B1 can provide valuable insights into the characteristics and capabilities of this processor.

Identification and Differentiation

Code names play a crucial role in identifying and differentiating various processor models within the same product lineup. With a wide range of Intel processors available, code names like SR3B1 help users easily identify the specific model they are looking for. This ensures that users can make informed purchasing decisions based on their specific requirements and desired features.

Improved Compatibility

Code names also help ensure compatibility between processors and other hardware components. By providing a unique identifier, manufacturers can develop and optimize drivers, firmware, and software for specific processor models. This compatibility ensures that users can seamlessly integrate the Intel Xeon Gold 6142M Processor into their existing systems without encountering compatibility issues or performance limitations.

Efficient Troubleshooting

In the event of any technical issues or inquiries, code names like SR3B1 provide a valuable reference point for troubleshooting. Support teams and online communities can easily identify the specific processor model being used by users, allowing for more accurate and targeted assistance. This streamlined troubleshooting process saves time and ensures that users receive the necessary support to resolve any issues promptly.

Future Proofing

Code names also play a role in future-proofing your system. As new processor models are released, manufacturers may phase out older models or introduce new features and improvements. By understanding the code name of your processor, you can stay informed about any future updates or advancements within the same product line. This knowledge allows you to plan for potential upgrades or optimizations to keep your system up to date with the latest technology.

Industry Terminology

Code names are often used within the technology industry as a way to reference specific processors during discussions, reviews, or comparisons. Familiarizing yourself with code names such as SR3B1 enables you to actively participate in these conversations and make more informed decisions based on the experiences and insights shared by other users and experts.

Tracking Technological Advances

By keeping track of code names and their associated processors, you can gain insights into the technological advancements made by manufacturers over time. Code names often change with each new product generation, reflecting improvements in architecture, performance, power efficiency, and other key features. Being aware of these advancements allows you to make more informed decisions when upgrading or replacing your current processor.

Base Clock Speed: 2.6GHz

The Significance of Base Clock Speed

The base clock speed is an essential specification to consider when evaluating the performance of a processor. In the case of the Intel Xeon Gold 6142M Processor, it boasts a base clock speed of 2.6GHz. Understanding the importance and benefits of this feature can help users determine if this processor meets their specific requirements.

Foundation for Performance

The base clock speed represents the frequency at which the processor operates under normal conditions without any additional boosting mechanisms. It serves as the foundation for overall performance and determines how quickly the processor can execute instructions. With a base clock speed of 2.6GHz, the Intel Xeon Gold 6142M Processor provides a solid starting point for various computing tasks.

Responsive and Snappy Performance

A higher base clock speed translates into more responsive and snappy performance, particularly in single-threaded applications that rely heavily on the processor's individual core performance. Tasks such as web browsing, office productivity applications, or light content creation benefit from a higher clock speed, as they often rely on quick response times and short bursts of processing power.

Improved Single-Threaded Performance

Single-threaded applications only utilize one core of a processor at a time. In these scenarios, having a higher base clock speed is crucial, as it directly impacts the performance of the application. The 2.6GHz base clock speed of the Intel Xeon Gold 6142M Processor ensures that single-threaded applications can run smoothly and efficiently, providing users with a seamless computing experience.

Efficient Serial Processing

Serial processing refers to tasks that cannot be divided into smaller parts and executed concurrently. These tasks rely heavily on the performance of a single core and benefit from higher clock speeds. The Intel Xeon Gold 6142M Processor's 2.6GHz base clock speed ensures efficient execution of serial processing tasks, allowing users to accomplish them quickly and effectively.

Optimal Gaming Performance

Gaming enthusiasts also benefit from a higher base clock speed, particularly in games that heavily rely on single-threaded performance. Certain games, such as real-time strategy or simulation games, often require quick calculations and rapid responses. With a base clock speed of 2.6GHz, the Intel Xeon Gold 6142M Processor delivers the necessary processing power for smooth gaming performance, allowing gamers to fully immerse themselves in their favorite titles.

Reduced Latency

Latency refers to the delay between the execution of an instruction and the corresponding output or result. A higher base clock speed helps reduce latency, ensuring faster response times and improved user experience. Whether you're launching applications, opening files, or performing real-time calculations, the 2.6GHz base clock speed of the Intel Xeon Gold 6142M Processor minimizes latency, resulting in a more fluid and efficient computing experience.

Cache Size: 22MB L3

The Benefits of a Large Cache Size

The cache size of a processor plays a critical role in determining its overall performance and efficiency. The Intel Xeon Gold 6142M Processor boasts an impressive 22MB L3 cache size, offering numerous benefits for users across a wide range of applications.

Improved Data Access

The cache is a small but fast memory component located within the processor. It stores frequently accessed data and instructions, allowing for quicker access compared to the main system memory (RAM). With a large 22MB L3 cache, the Intel Xeon Gold 6142M Processor can store more data and instructions, reducing the need to retrieve information from slower memory sources. This leads to faster data access and improved overall performance.

Boosting Multi-Threaded Performance

The large cache size of the Intel Xeon Gold 6142M Processor enables efficient multi-threaded performance. When multiple threads are executing simultaneously, they often compete for resources and access to data. With a larger cache, each thread has more space to store frequently accessed data, minimizing conflicts and improving overall efficiency. This results in enhanced multi-threaded performance and smoother execution of parallel tasks.

Reduced Memory Latency

With a larger cache size, the processor can store more data closer to the cores, reducing the need to access information from the system memory. This reduction in memory latency leads to improved system responsiveness and faster execution of tasks. Whether you're running complex calculations, manipulating large datasets, or performing real-time simulations, the 22MB L3 cache size of the Intel Xeon Gold 6142M Processor ensures minimal delays and efficient data retrieval.

Enhanced Virtual Machine Performance

Virtualization environments often benefit from a large cache size due to the simultaneous execution of multiple virtual machines (VMs). Each VM requires its own dedicated resources, including CPU cycles and memory access. The Intel Xeon Gold 6142M Processor's 22MB L3 cache allows for efficient caching of data and instructions related to each VM, minimizing resource contention and enhancing the overall performance of the virtualized environment.

Seamless Content Creation

Content creation tasks, such as video editing or 3D rendering, often involve working with large files and complex data sets. The large 22MB L3 cache of the Intel Xeon Gold 6142M Processor ensures that frequently accessed data remains readily available, reducing the time required to access and process this information. This results in a smoother content creation workflow, allowing users to focus on their creative endeavors without being hindered by slow data retrieval.

Efficient Database Operations

Databases are critical components of many applications and services, requiring fast and efficient data access. The large cache size of the Intel Xeon Gold 6142M Processor facilitates quicker access to frequently accessed database records, reducing read and write times. This enhances the performance of database operations, ensuring faster response times for applications reliant on databases, such as e-commerce platforms or enterprise resource planning systems.

Upi Speed: 10.4GT/S

The Significance of Upi Speed

The Upi (Ultra Path Interconnect) speed refers to the speed at which data is transferred between processors in a multi-processor system. The Intel Xeon Gold 6142M Processor features an impressive Upi speed of 10.4GT/S, offering several benefits for users who require high-performance computing capabilities.

Improved Scalability

Multi-processor systems are designed to handle demanding workloads by distributing tasks across multiple processors. The Upi speed plays a crucial role in ensuring efficient communication and data transfer between these processors. With a Upi speed of 10.4GT/S, the Intel Xeon Gold 6142M Processor enables seamless scalability, allowing for the addition of more processors to the system without sacrificing performance. This scalability is especially beneficial for server environments or high-performance computing clusters.

Reduced Latency and Bottlenecks

Latency and bottlenecks can occur when data transfer between processors is slow. These delays can impact the overall performance of the system, especially in applications that rely heavily on inter-processor communication. The high Upi speed of 10.4GT/S minimizes latency and reduces bottlenecks, ensuring smooth data transfer and efficient collaboration between processors. This results in improved system responsiveness and faster completion of tasks.

Enhanced Parallel Processing

Parallel processing is a computing technique that involves dividing a task into smaller parts and executing them concurrently across multiple processors. The high Upi speed of the Intel Xeon Gold 6142M Processor facilitates efficient parallel processing, as data can be quickly shared and synchronized across processors. This enables faster completion of parallel tasks, such as scientific simulations, financial modeling, or complex data analysis.

Scalable Memory Access

Memory access is an integral part of computing performance, particularly in memory-intensive applications or large-scale datasets. The Upi speed affects the efficiency of memory access between processors, ensuring that data can be quickly shared or accessed as needed. The 10.4GT/S Upi speed of the Intel Xeon Gold 6142M Processor enables scalable memory access, allowing for efficient utilization of memory resources across multiple processors and reducing potential bottlenecks.

Seamless Virtualization Performance

Virtualization environments benefit greatly from high-performance inter-processor communication. With a Upi speed of 10.4GT/S, the Intel Xeon Gold 6142M Processor ensures smooth operation of virtual machines by enabling fast and efficient communication between processors. This results in improved virtualization performance, allowing for the seamless execution of multiple virtual machines and high-quality service delivery.

Efficient Data Sharing

Data sharing and synchronization are essential in many computing scenarios, such as distributed computing or data analysis across multiple processors. The high Upi speed of the Intel Xeon Gold 6142M Processor facilitates efficient data sharing, enabling quick exchange of information between processors. This efficiency is particularly valuable in applications that require real-time collaboration or processing of large datasets, ensuring faster analysis and more accurate results.

Socket Type: FCLGA3647

The Importance of Socket Type

The socket type refers to the physical interface between the processor and the motherboard. It plays a crucial role in determining compatibility, upgradeability, and overall system performance. The Intel Xeon Gold 6142M Processor utilizes the FCLGA3647 socket type, offering several benefits for users seeking high-performance computing solutions.

Compatibility and Upgradeability

The FCLGA3647 socket type is specifically designed for Intel Xeon processors, ensuring compatibility with a wide range of server-grade motherboards. This compatibility allows users to upgrade their existing systems or build new ones based on the Intel Xeon Gold 6142M Processor without worrying about potential compatibility issues. The FCLGA3647 socket type offers long-term support, providing a future-proof solution for users who require scalable and powerful computing capabilities.

Optimized Power Delivery

The FCLGA3647 socket type features an optimized power delivery system, ensuring efficient power distribution to the processor. This optimized power delivery minimizes power loss and voltage fluctuations, resulting in improved stability and reliability. The Intel Xeon Gold 6142M Processor can operate at its full potential without being hindered by inadequate power supply or voltage fluctuations, enhancing overall system performance and reducing the risk of hardware failures.

Enhanced Thermal Performance

Efficient heat dissipation is crucial for maintaining the longevity and performance of a processor. The FCLGA3647 socket type incorporates advanced thermal management features, allowing for efficient heat transfer from the